Final answer:
To find the number of moles of carbon in 0.692 moles of Benadryl, multiply the moles of Benadryl by the number of carbon atoms in its chemical formula, C17H21NO.
Step-by-step explanation:
To find the moles of carbon in 0.692 moles of Benadryl, multiply the moles of Benadryl by the number of carbon atoms in its chemical formula (C17H21NO), resulting in 11.764 moles of carbon.
To determine the number of moles of carbon present in 0.692 moles of Benadryl, one should first know the chemical formula of Benadryl (diphenhydramine), which is C17H21NO. This compound contains 17 carbon atoms per molecule. Therefore, to find the number of moles of carbon atoms, multiply the number of moles of Benadryl by the number of carbon atoms per molecule: 0.692 moles of Benadryl × 17 moles of C per mole of Benadryl = 11.764 moles of C. Thus, there are 11.764 moles of carbon in 0.692 moles of Benadryl.
To determine how many moles of carbon are present in 0.692 moles of Benadryl, we must know that the chemical formula for Benadryl (diphenhydramine) is C17H21NO. This means that each molecule of Benadryl contains 17 carbon atoms.
To find the moles of carbon, you multiply the moles of Benadryl by the number of carbon atoms in the formula:
0.692 moles of Benadryl × 17 moles of C per mole of Benadryl = 11.764 moles of C.
Therefore, there are 11.764 moles of carbon in 0.692 moles of Benadryl.